Abstract:
This research addresses the escalating security concerns associated with the rapid evolution of
quantum computers. With quantum advancements posing potential threats to traditional cryptographic
schemes, our study aims to fortify their resilience. By proactively employing anti-quantum algorithms, we
seek to secure SSH sessions and storage, thus mitigating the risk of "catch first, decrypt later" attacks. The
methodology section provides a detailed overview of the application of these algorithms, introducing an
innovative approach to bolster the security of public key distribution in the SSH protocol. Our findings
underscore the practical significance of these measures, demonstrating significant enhancements in
communication and data integrity protection. In conclusion, our research highlights the critical role of
authenticated open channels in cryptographic protocols, offering a comprehensive strategy to anticipate and
address security challenges in the era of quantum supremacy. This abstract offers an impartial overview of
our study, adhering to the prescribed structure and avoiding unwarranted exaggerations. It ensures a concise
representation of our contributions, guiding readers to the main text for further exploration. By addressing
these issues, we aim to contribute to the ongoing efforts to secure digital communication systems amidst
evolving technological landscapes. We believe that our research provides valuable insights for
policymakers, industry practitioners, and researchers alike, fostering a proactive approach to cybersecurity
in the quantum era.
